Combined typewriting and computing machine



Dec. 17, 1940. H. l.. PITMAN COMBINED TYPEWRITING AND COMPUTING MACHINE Filed Oct. 16, 1956 l1 Sheets-Sheet 1 ATTORNEY Dec. 17, 1940. H. L.. PnMAN `COMBINED TYPEWRITING AND COMPUTING MACHINE Filed Oct. 16, 1936 1l Sheets-Sheei 2 )'Dec. 1940. H. L. PITMAN 2,225,484 I COMBINED TYPEWRITING AND COMPUTING MACHINE Filed Oct. 16, 1936 11 Sheets-Sheet 5 NVENTOPH @www .f AT TOR N EY Dec. 17; 1940. H. L. PITMAN 2,225,484

l COMBINED TYPEWRITING AND COMPUTING MACHINE I Filed Oct. 16, 1936 11 Sheets-Sheet '4 INVENTOR:

Bv M7 ATTORNEY.

Dec- 17, 1,940- H. l.. PrrMAN 2,225,484

GOMBINED TYPEwRIT-ING AND COMPUTING MACHINE Filed Oct. 16, 1936 l1 Sheets-Sheet 5 INVENTOR ym Dec. 17, 1940.

H. 1 PnMAN COMBINED TYPEWHITING AND COMPUTING MACHINE Filed Oct. 16, 1956 11 SheebS-Sheet 6 INVENTOR= ATTORNEY.

Dec. 17, 1940. H. 1 PITMAN ACOMBINED TYPEWRITING AND COMPUTING MACHINE Filed oct. 1e., 193s ll Sheets-Sheet 7 INVENTOR:

ATTORNEY Dec. 17, 1940. H. L. PITMAN COMBINED TYPEWRITING AND COMPUTING MACHINE Fil'ed Oct. 16, 1936 l1 Sheets-Sheet 8 INVENTOFK:

ATTORNEY.

Dec. 17, 1940. H. l.. PITMAN COMBINED TYPEWRITING AND COMPUTING' MACHINE Filed Oct. 16. 1936 11 Sheets-Sheet 9 NVENTOR.: @V7 f ATTORNEY.

Dec. 17, 1940. 1-1. 1 P'LTMAN 2,225,484

COMBINED TYPEWRI'IING AND COMPUTING MACHINE Filed Oct'. 16, 1936 ll Sheets-Sheet lO V o o 277 257 J 1 if F11 L1 im 79 1 7i 97 /f ,5MM 75 M4 w 1 w /5`AP PLALE CALLED AMnuNT coun Tjx if M 11 ammessa-2315 1 so M 1l/f4 1 .o o ZM 257 L@ Him 1 o f LJ' @D 97 /f /54 26/ 04 [fg a PLALE nALLen AnuuNT cane TAX L [65 APRL 11 ABnwLuusa H3115 l 5D r1 10 l l 32 Ww H D [fg/9. TOTAL 10131 M11 11 n 711 zn v Z 73 l 5N wmf o o Q?, "1'T-:i'H-C.P" l''g INVENTOR:

Dec. `17, 1940. H. L P11-MAN 2,225,434

COMBINED TYPEWRITING AND COMPUTING MACHINE Filed Oct. 16, 1936 11 Sheets-Sheet 11 W ngz@ NFW YORK TELEPHONE. COMPANY TELL SERVIRE AND OTHER CHARGES PLAnE CALLED AMOUNT cuna TAX /I/ APRIL 11 BOWLING G. Q2345 Patented Dec. 17, 1940 PATENT OFFICE COMBINED TYPEWRITIN G AND COMPUTING MACHINE Henry L. Pitman, Hartford, Conn., assigner to Underwood Elliott Fisher Company, New York, N. Y., a corporation of Delawarel Application October 16, 1936, Serial No. 105,882

3 Claims.

This invention relates to combined typewriting and computing machines in which digit-type keys control digital operation of a master-wheel mechanism, and a carriage, feeding step by step concomitantly with operation of said keys, brings totaliZer-wheels seriatim into engagement with said master-Wheel mechanism. A machine of this class is exemplied in Patent 2,020,340, to O. Thieme, issued November 12, 1935, and Patent 1,835,165, to A. G. F. Kurowski, issued December 8, 1931.

The invention deals particularly with improvements in means whereby a plurality of master wheels and a plurality of registers are coordinated during the typing of a line which may containboth computed and non-computed items or data.

The machine herein disclosed is particularly devised for doing the work, for example, of typing and computing telephone-toll bills. The form of such bill (illustrated in Figure 19) provides for entry of non-computed items, namely, the date and the telephone exchange and number of a call in the rst column at the left of the bill. Threesucceeding columns of the bill are respectively for the toll-amount, a code-symbol, and the Government tax, each call being thus itemized in one line across the bill; and the bill may include several such lines for different calls. 30 Incidentany to the typing of the bins, the master Wheels and registers are coordinatedto compute the total toll and tax charges to the customer on each bill, a grand total of all the toll and tax charges on a multiplicity of bills, and a grand total of all the taxes alone entered on said bills.

`In such case, three registers are provided, one lor the total of a single bill and the other two registers respectively for said grand total of all the charges and said grand total of all the taxes 40 for sai-d multiplicity of bills. Three master wheels are used in different combinations with said registers to enter said totals in said registers and to clear the single-bill total register; and a fourth master wheel is used to clear the two grand total registers individually. It will be understood that for the register-clearing operations, the master-wheel mechanism is first conditioned for reverse, that is, subtractive rotation of the master wheels.

' The several master wheels and several registers are respectively grouped closely together consonantly with doing all the typing, including the 55 mechanism which 4is not to be operated while typing one part of a line of the bill will nevertheless traverse one or more of the master wheels.

Novel means are provided whereby the inappositely traversed master wheels are silenced or rendered inoperable relatively to thev digit-type 5 keys. Said means include devices whereby all the master wheels may be silenced collectively, as for instance, when typing the date and telephoneexchange numerals in the aforementioned telephone-toll bill; and said means also include devices whereby a given inappositely traversed master wheel is silenced individually consonantly with using anothermaster wheel for computing.

An object of the invention is to work the master-wheel-silencing means, and also subtraction-setting means, automatically by means of the carriage, and particularly by tappet-devices Vthat are apart from the register-structure, so that no tappet-reaction may tend to throw the registers out of true relatively to the masterwheel mechanism. Therefore the requisite tappets are placed on a rack that is mounted on the carriage apart from the usual registersupporting truck that travels with the carriage, a vfurther feature residing in making use of the usual tabulating-stop rack at the back of the carriage for mounting such tappets. Novel master-wheel-mechanism-silencing and subtraction-setting trains extend forwardly, from the vicinity of the path traversed by said tappets, to the master-wheel mechanism at the front of the typewriter.

' In thezone wherein the carriage normally operates to silence a master wheel, it may be desired on occasion to render said master wheel effective. A further object of the invention, therefore, is provision of a key operable at will, and means enabling said key to counter or negative the master-wheel silencing that is normally effected by the carriage; and a feature of such provision resides in having said key at the typewriter-keyboard so that it may be worked without movingthe hands from the keyboard.

A further object of the invention is to adapt said key and means to negative the aforementioned collective silencing, by the carriage, of all the master wheels. In such case, although the master vwheel whose use is desired is rendered effective by means of said key, another master wheel whose use is not desired is also rendered effective; and it is a further object of the invention to provide means enabling said key as it negatives the collective silencing, by the carriage, f

of the master wheels, to concomitantly re-silence only the undesired master wheel.

A further object of the invention is to provide means enabling said key to condition the masterwheel mechanism for reverse or subtractive rotation of the master wheel that has been rendered effective by means of said key.

A tabulating mechanism is operable to release the carriage and project a stop for resulting tabulating advance of the carriage to a given zone.

It is a further object of the invention to provide means whereby some or all of the aforementioned controls of the master-wheel mechanism that can be effected by operation of the aforesaid key may be effected, on appropriate occasion, concomitantly with the operation of said tabulating mechanism, thereby to dispense with a separate operation of said key in order to still further save time and labor in the operation of the machine. For example, if the carriage be advanced by operation of said tabulating mechanism to a Zone in which the carriage normally silences all the master wheels collectively, said last-mentioned means provide that there will occur, concomitantly with said tabulating operation, the negativing of the collective silencing, by the carriage, of the master Wheels; the aforementioned re-silencing of a master wheel may also occur concomitantly with operation of the tabulating mechanism; and the conditioning of the mechanism for subtractive rotation of the effective master wheel may also occur concomitantly with operation of the tabulating mechanism.

The tabulating mechanism may include two key-controls including tabulating keys at the typewriter-keyboard; the invention further making provision whereby one tabulating key is effective only to tabulate the carriage, and the other tabulating key is effective to tabulate the carriage and concomitantly control the masterwheel mechanism as aforesaid. In the illustrated machine, the two tabulating-key controls are embodied in a set of denominational tabulating keys, in that one or more of the latter may be effective only to tabulate the carriage, and another denominational tabulating key is effective to tabulate the carriage and concomitantly control the master-wheel mechanism. For example, when the carriage is tabulated to a Zone in which it is desired to negative the silencing, by the carriage, of the master-wheel mechanism normally occurring at said zone, the tabulating is effected by operation of one of the higher denominational tabulating keys Consonantly with writing a total at said Zone and clearing the corresponding register. Thus, it would occur only at operation of one of said higher denominational tabulating keys that the carriage would be tabulated and the master-wheel mechanism concomitantly controlled as aforesaid, the lower denominational tabulating key or keys being only effective to tabulate the carriage.

Consonantly with pressing said keys only momentarily, so that the operators hands may thereafter be free for typing, the condition of the master-Wheel mechanism, for a given zone, effected by means of said keys becomes set; and a further object of the invention is to provide means whereby, following the employment of said condition, a movement of the carriage, as, for example, the carriage-return movement, automatically causes restoration of the master-Wheel mechanism.

The invention also provides improvements relative to the letter-feed carriage-rack, whereby the carriage may be automatically caused to jump one or more letter-spaces from the end letterspace of one column or zone to the first letterspace of a succeeding zone, a device of this kind being particularly useful in facilitating the writing of the aforementioned telephone-bill. The improvements in this respect reside in enabling the carriage to make successive jumps by means of a single rack-segment that is automatically caused to shift repeatedly, for said successive jumps, relative to the main letter-feed rack with which said rack-segment is incorporated.

Other features and advantages will hereinafter appear.

In the accompanying drawings,

Figure 1 is a sectional side elevation of the computing typewriter, showing the register-mechanism, the mechanism, and the devicesl whereby the carriage and the aforesaid key and tabulating keys control the condition of the master-wheel mecha nism.

Figure 2 is a perspective of the computing typewriter to bring out details of the devices seen in Figure l, parts of the machine being omitted, as, for example, the carriage, and other parts being shown broken away or sectioned for clarity.

Figure 3 is a perspective showing the carriage, registers, master-wheel mechanism and the novel means enabling the carriage to silence all of the master wheels; a portion of the key and the means operable thereby to negative said silencing also being shown.

Figure 4 is a perspective of a master wheel and a device for angularly adjusting same on its shaft.

Figure 5 is a sectional top plan of the typewriter, showing details of the master-wheel mechanism and the devices, of Figure l, for controlling same, the carriage being omitted, and the view being that of a section taken approximately on the trace 5--5, of Figure 1, and shortened as represented by the gap H in said Figure 5.

Figure 6 is a fragmentary front elevation of devices whereby when a register is at a punctuation-space the digit-type keys are locked.

Figure '7 is a sectional side view showing the Figure 6 parts and their relation to a masterwheel main clutch-train.

Figure 8 is a perspective of the exterior of the master-wheel mechanism, and also shows connections from a supplemental or palm tabulating key to the tabulating mechanism.

Figure 9 is a perspective of the means, including a clutch, whereby a given master wheel may be silenced individually, while another master wheel remains effective.

Figure 10 is a side elevation of the parts invalved in the operation of the key to negative the silencing, by the carriage, of the master-wheel mechanism.

Figure 11 is similar to Figure l0, showing further the operation of the means whereby a given master Wheel is re-silenced individually and the master-wheel mechanism is set for subtraction concomitantly with operation of the key. Figure 1l also shows means enabling the carriage to individually silence said given master wheel.

Figure 12 is a diagram of the telephone-bill,

type-key-operated master-wheel.

aforesaid key actuated, instead, by depressionof a tabulating key.

Figure 14 is similar to Figure 12, and represents the relative positions of the master wheels and the registers vfor typing a grand total of all the charges. Y

Figure 15 is a side elevation showing how the carriage operates to restorethe subtraction-setting and master-wheel-silencing controls.

Figure 16 is a front elevation showing the carriage-tappet and the master-wheel-silencing train-terminal in their relative positions at the extreme of the carriage-return movement and at the end ofthe usual carriage-return drop-back following said return movement.

Figures 1'7, 18 and 19 are similar to Figure 12;h Figure 17 showing the relative positions of the master wheels and registers for atotal charge or amount entry in -tWo of the registers; Figure 18 showing the relative positions for entering a tax in each of the three registers simultaneously, and Figure 19 showing the relative positions for clearing the amount-register concomitantly with copying the total of a single 'bill therefrom. l

Figure 20 is a front elevation representing the platen-carriage, and the letter-feed mechanism including the novel devices associated with the letter-feed rack for automatically jumping the carriage to skip a plurality of letter-spaces.

Figure 21 is a diagram representing the feedrack segment engaging the letter-feed pinion and the .main rack as having just left said pinion for an ensuing carriage-jump.

Figure 22, similar to Figure 2l, shows the carriage-jump-limiting stop being displaced at a letter-feed step of the carriage to release the rack-segment for an ensuing second carriagejump.

Figure 23 is a perspective showing the stop in position against the rack-segment to limit the first carriage-jump.

Figure 24 is a perspective of the main rack and rack-segment, parts being broken away and sectioned to show construction.

Figure 25 is a view companion to Figure 22, showing the relative positions of the parts following completion of the second carriage-jump.

Figure 26 is a perspective of a, part of the feedrack.

In an Underwood computing typewriter, the type-action system, Figure 1, includes alphabetkeys 30 and numeral or digit keys 3|, each key being on a key-lever 32, connected by a bell-crank 33 to a type-bar 34, swingable from a normally cumbent position to print against a platen 35 mounted in a carriage 36 running on front and rear rails 31, 38, on the machine-frame 39.

Each type-bar 34 coacts with the usual universal bar 42 to actuate a dog-rocker 43, Figures 1 and 20, relatively to an escapement-wheel 44 for a resulting letter-feed step of the carriage 36; said carriage being driven by means of the usual spring 45 and drawband 46, and having a feedrack 41 engaging a pinion 48 connected to said escapement-wheel 44. Novel devices associated with said feed-rack 41 for letter-space skipping will be described later herein.

Computing registers 59, Figures 1 and 3, travel with the carriage 36 to traverse register-operating master-wheel mechanism 5|; said registers 50 being mounted on a truck 52 connected to the carriage 36 by ties 53, and said truck having a guide-rail 54 which runs upon anti-friction rolls 55 along a stationary guide-rail 56.

the actuators 59 being rotatable individually on a common fulcrum-rod 64.

The differential or` digital movements of said rock-shaft 63 are transmitted to a master-Wheel shaft 66, Figures 1, 2, 3 and 5, by means of an arm 61, on said rock-shaft 63, a gear-sector 69 fulcrumed on a rod 10, a link 68 connecting ysaid arm 61 and said gear-sector 69, and a master pinion 1| normally rotatably loose on said masterwheel shaft 66. Said master pinion 1| is driveable either directly by said sector 69 for additive rotation oi the master-wheel shaft 66, or through a change-gear 12, placeable, as will be described later, between said master pinion 1| and sector 69 for reverse or subtractive rotation, said change-gear running on an axle-rod 13.

A clutch 15 is splined at 16 to the master-wheel shaft 66, and is normally positioned, Figures 2, 3 and 5, so that clutch-teeth 18 thereon are clear of a toothed-clutch disk 19, joined, by a hub 80, to said master pinion 1 During the initial portion 'of the down stroke of an actuator 59, before its cam 60 works the rock-shaft 63, an edge 8| of said actuator 59 (Figures 1 and 2) displaces a companion pawl 82 downwardlyY to actuator-trailing position to rock a clutch-controlling rock-shaft 83 which mounts the several pawls 82. It results that an arm 84, Figures 3 and 7, on said rock-shaft 83, Works a clutch-shifter or bell-crank 85, pivoted in the master-wheel-mechanism framework, to shift the clutch 15 leftward to engage the masterpinion-clutch disk 19, thereby enabling the thereafter starting rotation of the master pinion 1| to drive the master-wheel shaft 66.

When the master-wheel-shaft rotation has been completed by means of the cam 60, and before the end of the actuator down stroke, the trailing pawl 82 escapes from the actuator-edge 8|, whereupon a spring 81, Figures 3 and 7, pulling on an arm 89, connected to the bell-crank 85, turns the latter clockwise against a stop 88, and thereby shifts the clutch 15 rightward again to disconnect the master pinion 1| from the master-wheel shaft 66, the clutch-controlling rockshaft 83 being concomitantly restored to normal position. Thus the master-wheel shaft 66 is not driven reversely at the return movement of the actuator 59 and master pinion 1|.

In the return movement of the actuator 59, its edge 8| lifts the escaped pawl 82 to reverse actuator-trailing position, while the clutch-controlling rock-shaft 83 is held stationary in its normal position by a spring 98, Figures 3 and '1, extending from the rock-shaft arm 84 to the bell-crank 85; each pawl 82 being rotatable individually relatively to said rock-shaft 83. When the actuator 58 reaches the end of its return stroke, the pawl 82 will have escaped downwardly from the actuator-edge 8| and will have been returned by its individual spring 9| against a stop-pin 92 in said rock-shaft 83. The individually springpressed pawls 82 and their capability of moving to reverse actuator-trailing positions relative to lthe rock-shaft 83, so as to be also operative for Cil preventing simultaneous operation of two numeral-key levers 32 at computing, are substantially as disclosed in my application Serial No. 646,953, led December 13, 1932, now Patent No. 2,118,861.

In the initial portion of the down stroke of the actuator 59 accompanied by rocking of the clutch-controlling shaft 83 t0 connect the master-Wheel shaft 66 for rotation, an arm 93 of said rock-shaft 83 works against a cam-arm 94, Figure 7, to rock the latter and its rock-shaft 05 counterclockwise, said shaft 95 being journaled in the master-wheel-mechanism framework. This withdraws a locking dog 96 from a master wheel 91, fastened to the master-wheel shaft 63; it also causes a dog 98 to engage a rack 99 on the register-truck 52 to lock the latter laterally; and it also causes a dog to rock the appropriate denominational lever |0| which forms part of the register-carry-over mechanism as described in the aforesaid Thieme patent. Said dogs 96, 98, |00 are shown combined with said cam-arm 94.

For manually setting the master-wheel mechanism for addition or subtraction, at will, there is used mechanism substantially as disclosed in the application, Serial No. 553,937, of O. Thieme, iiled July 30, 1931, now Patent No. 2,115,922. In said mechanism, a three-armed state-setting lever |02, Figures 2 and 5, is pivoted to the master-wheel-mechanism framework at |03, and has opposite arms |04, from which an adding key |05 and a subtraction-key |06 extend forwardly and are guided in a front cross-bar |01 of said framework. A third arm |08 is connected by link |09 to a rock-shaft ||0, journaled in said framework to extend rearwardly from said link to present an upwardly-extending arm and a downwardly-extending arm ||2, articulated respectively as at I3, Figure 5, to the change-gear 12 and to the sector 69. Said change-gear 12 and sector 69 are slidable laterally on their respective journaling rods 13, 10.

With the adding-key plunger |05 pushed in, Figure 5, the gear-shift arms H2, |I| respectively present the sector 69 in direct engagement with the master pinion 1|, and the change-gear 12 disengaged from both the sector 69 and master pinion 1 I. Conversely, upon pushing in the subtraction-key plunger |06, said gear-shift arms H2, will have shifted the sector 69 to the left and the change-gear 12 to the right to positions enabling said sector 69 to drive the master pinion 1| reversely through said change-gear 12. In its shift to the right, said change-gear 12 becomes disengaged from a detent-tongue l i4, designed as shown in said Kurowski patent, tc keep the sector 60, master pinion 1| and changegear 12 in proper relative angular positions, to prevent clashing of their teeth during the shifts. A detent-arm ||5 on the rock-shaft ||0 engages the framework as at I6, Figures 2 and 5, to yieldably keep the parts in addition or subtraction positions.

The master-wheel-rnechanisin framework includes a back H1, Figure 5, fastened to the typewriter-frame 39 by screws ||8. End bracketplates H9, |20, and intermediate bracket-plates I2|, |22, |23 project forwardly from said back H1, Figures 2 and 5, the intermediate bracketplate |22 not being shown in Figure 5. The cross-bar |01 is joined to the end plates H0, |20, as at |24, Figure 5, and is also supported by attachment to a cross-bar joined to the intermediate plates |2|, |23, as at |26. The actuatordriven rock-shaft 63, the actuator-fulcrum roo' 64, and the clutch-control shaft 83 are supported in the end plates |19, |20. The intermediate plates |2|, |22 support the sector and changegear rod 10, 13; and the plate |23 and end plate |20 support the dog-rock-shaft 95. Said framework also includes a cross-rail |21 engaged by a roller |28, Figure 1, depending from each register-mechanism 50 to support the latter against upward thrust. The typewriter main frame 39 also mounts a hold-down roller |29 over the register-truck rail 54.

The mechanism so far described operates substantially as set forth in the aforesaid patents and applications. The novel devices for using and coordinating a plurality of master wheels and a plurality of registers will now be described with reference, for example, to typing and coniputing telephone-toll bills.

The bill-form |30 herein represented may be an individual sheet or one of successive forms of a continuous web, and is rear inserted around the platen within a paper-chute ISI, Figure 3, so that, with the typewriter-carriage 36 initially positioned by means of the line-start-dening margin-stop (not shown), the bill |30 will be laterally positioned for typing the first character in the first column of the bill. In said first column the day of the month of a call is written, followed by the telephone-exchange and number of the call. Then, in thethree succeeding columns, there are respectively typed the toll-charge or amount of the call, a code-letter, symbolizing the nature of the call, and the tax on the call;

`each call having its individual line on the bill as shown in Figure 19.

In typing the amounts and taxes of several calls, three totals are accumulated, and there are therefore provided three registers 50, respectively designated as No. 1, No. 2 and No. 3, in Figures 3, 12, 14, 1'1, 18 and 19. Register No. 1 accumulates the total of the tolls and taxes Of a single bill; register No. 2 the grand total of the tolls and taxes of a multiplicity or collection of bills known as a book; and register No. 3 accumulates the total of all the taxes on the collection or book of bills. Thus, when typing the toll-charge of a call in the second or amount column of the bill, said toll-charge is concomitantly entered in registers Nos. 1 and 2, and therefore register No. l traverses a master wheel |33, while at the same time, see Figure 17, register No. 2 traverses a master wheel |34; these master wheels |33, |34 being provided on the master-wheel shaft 66 additionally to the master wheel 31 that was mentioned hereinbefore with reference to its engagement by the masterwheel-locking dog 96. After typing the codeletter in the third column of the bill, said master Wheel 91 comes into use when typing the tax in the fourth bill-column, in that it is traversed by register No. l to add the tax to the toll-charge previously entered in register No. 1. Simultaneously with thus entering the tax in register No. 1, said tax is also added in the No. 2 register and in the No. 3 register, these latter registers for this purpose traversing the master wheels |33, |34, as represented in Figure 18.

A fourth master wheel |35 is located on the master-wheel shaft 66, so as to be traversed in turn by the No. 2 and No. 3 registers while the carriage traverses the first bill-column zone, the grand totals of these registers being typed in said zone at the end of a book, as represented in Figures 12 and 14, and these registers, No. 2

V journaled in brackets |50, |5|,

and No. 3, being concomitantly cleared as will be explained later. There is a companion master dog |00 for each master Wheel 91, |33, |34, |35.

It will be seen now that, consonantly with doing the described typing and computing within the short range of carriage-travel that is commensurate with the narrow width of the bill, the fourth master wheel will be traversed by registers No. l and No. 2 when typing the day of the month and telephone-exchange numerals, and that it is only on the comparatively infrequent occasions of typing said grand total that said fourth master wheel |35 is to be operative. Said fourth master wheel |35 is therefore normally caused to be silenced while the carriage 36 is traversing the rst column-zone, and, for this purpose, the master-wheel shaft 66 itself is silenced, since it is also desired that none of the other master wheels 91, |33, |34 shall be operative while typing at said rst column-zone for the several calls.

Mechanism for normally silencing the master wheels is Worked by a tappet-unit |31 placed on the usual tabulating rack |38, mounted on brackets |39 extending rearwardly from the typewritercarriage 36, Denominational tabulating counterstops |42 are selectively projected by denominational tabulating-key levers |43 for engaging a tabulating stop on said rack |38 to arrest the tabulating-carriage advance, the carriage having been released concomitantly with projection of the counter-stop |42. Suitable carriage-releasing means, for tabulating, are represented by the partly shown lever |44 and its roll |45, Figure 1, for raising the carriage-feed rack 41 from the escapement inion 48, and are exemplified in Patent No. 1,858,447, to Helmond, issued May 17, 1932.

Said tappet-unit |31 includes a block |40 forked for placement upon said tabulating rack |38, said block presenting a tappet 4| Figures 1 and 16. In the initial line-starting position of carriage 36, said tappet |4| has depressed a jack, in the form of a cam-plate 48, to rock a shaft |49, Figures 2 and 5, attached to the usual tabulating-counter-stop housing |52 and to the frame 39; said cam-plate |48 having a stem |53 connected to arm |54 on said shaft |49. A plate |55 on said housing 52 has cam-plate guides |56; and cam-plate shoulders |51 normally stop against said guides |56 for the normal raised position, Figure 2, to which said cam-plate I 48 is urged by a spring |58.

The described depression of the cam-plate 48 and rocking of the shaft |49, by means of a carriage-,tappet 14|, operate through a bell-crank |59, fulerumed on the actuator-fulcrum shaft 64 in the master-wheel mechanism 5| and connected by a link |60 to an arm |6| of said shaft |49, to rock the master-wheel-clutch-controlling rockshaft 83 counterclockwise to turn its pawls 82 out of the path of the actuators 59, as in Figure 3, said bell-crank |59 having a side spur |62 to engage an arm or pin |63 of said rock-shaft 83. This renders said numeral-key-lever-driven actuators 59 ineffective to Work the clutch 15 for connecting the actuator-driven master pinion 1| to the master-wheel'shaft 66, and thereby silences the latter and all its master wheels 91, |33, |34, |35, at operation of the numeral-key levers 32 in the first bill-column zone; the tappet |4| and the cam-plate |48 being elongated as represented in Figure 3 commensurately with keeping the camplate |48 depressed throughout the traverse of said i'irst column-zone by the carriage.

The turning of said clutch-controlling rockshaft 83 to disabled position, Figure 3, causes its arm 84 to recede from the clutch-shifter or bellcrank 85, and stretch the spring 90. `Said spring 90 thereby becomes effective for rocking said clutch-controlling rock-shaft 83 back to normal position, Figure 2, when the rock-shaft-disabling bell-crank 59 is caused to rock back to its normal position, Figure 2, concomitantly with restoration of the cam-plate |48, by its spring |58, when the carriage-tappet |4| clears said camplate- |48 at the end of the first column-zone.

The day of the month and the telephone-number of a call having been typed in the first column of the bill |30, the carriage may be advanced to the amount-column by operating the tabulating mechanism. For facilitating the tabulating operation, the machine is shown (Figure 8) equipped with a palm-key-tabulating lever |65, pivoted at |64 to the side of the typewriter-frame.

In the present machine, depression of said palm-key-tabulating lever |65 depresses the tensof-cents denomination tabulating key |43 in consideration of the first digit of the toll for most calls being in the tens-of-cents denomination designated by the character on such key |43 in the present machine. The connections include an intermediate lever |66, pivoted to the typewriterframe at |61, and connected to the palm-keytabulating lever |65'at |68, and a rock-shaft |69, journaled in the typewriter-frame 39, having arms |10, |1|, connected respectively to said intermediate lever |66 at|12, and by a link |13 to the tens-of-cents-denomination key-lever |43.

While the carriage 36 transverses the amountcolumn zone concomitantly with typing the tollcharge in the amount-column of the bill |30, registers No. l and No. 2 respectively traverse, see Figure 17, the master wheels |33 and |34, so that the toll-charge will be added in each of these latter registers. It may be explained here that the master wheels 91, |33 and |35 are shown permanently connected to the master-wheelshaft 66, to always rotate therewith, and that the master Wheel |34 is normally connected to said master-Wheel shaft 66 by a clutch |15, Figure 5, splined to said masterwheel 34 at |16, said clutch |15 normally engaging a toothed clutch-head |11.

on said master-wheel shaft 66, as in Figures 5 and 17, and being laterally shiftable to the left for its disengagement from said clutch-head |11 for silencing said master wheel -|34 individually as will be explained later.

As the carriage 36 moves concomitantly with the step of the escapement-wheel 44, which ensues upon typing the last digit of the toll-charge, a leading rack-portion |18 of the feed-rack 41, ending in a shoulder |19, leaves the escapementpinion 48, as in Figure 21, and a feed-rack segment |80 normally abutting said shoulder |19, as in Figure 20, has meanwhile advanced into mesh with said escapement-pinion 48. It results that the carriage is drawn leftwardly by its spring 45 and drawband 46 until an end |8| on a stopnger |82, pivoted at |83 to a trailing portion |84 of the rack 41, strikes, Figure 23, a stop-face |85 of the rack-segment |80, said rack-portions |18,

|84 moving relatively to said rack-segment 30, which is held by the escapement-pinion 48. The carriage 36 thus is caused automatically to skip a number of spaces to bring itimmediately, upon typing the last toll or amount digit, to the Space.

for the code-letter in the code-column of the bill |30, The number of letter-spaces skipped (three in the present instance) is commensurate with said step of the escapement-wheel 44 plus the distance (Figure 20) that normally separates the rack-segment-stop face and the stop-end I8| of the stop-finger |82.

A one-piece rack-bar |86 includes the leading rack-portion |18 up to a plane |81, Figures 20 and 24, and the trailing rack-portion |84 starting from a plane |88, said planes being formed as by milling said rack-bar |86 across its back and under side to receive an insert |89 shown separately in Figure 26. Said rack-bar |86 is further milled across its back to form, with a plate |90 of said insert |89, a slot |9| in which the rack-segment |80 is slidable relatively to the rack-bar |86. Bottom lugs |92, |93, at the ends of the insert |89, have rack-teeth, Figure 26, and respectively complete the leading and trailing rack-portions |18, |84. Said lugs |92, |93 include respectively a part of the aforesaid end-shoulder |19 of the leading rack-portion |18, and a part of a shoulder |94 at which the trailing rack-portion |84 starts, said shoulders being completed by the ends of the slot |9| in which the rack-segment |80 is retained. Said rack-segment |80 has back anges |95 slidably fitting the top and bottom edges of the insert-plate |90, and a spring |96 normally keeps said rack-segment |80 in abutment with said end-shoulder |19 of the leading rack-portion |18, Figure 20, Rivets |91, Figure 24, secure said insert |89 to the rack-bar |86.

Since the symbol in the code-column is typed by means of an alphabet-type key 30, it will be seen that there is no concurrent actuation of the computing mechanism.

As the carriage 36 moves concomitantly with the step of the escapement-wheel 44, which ensues, Figure 22, upon typing the symbol in the code-column of the bill |30, a reduced end |98 of the eed-rack-raising roll |45 of the tabulating mechanism reacts against a cam |99 on the advancing stop-nger |82 to swing the latter upwardly relatively to the feed-rack 41, held down by means of the usual feed-rack spring 280, Fgures 1 and 20, to release said iinger |82 from the rack-segment |80, and said rack-segment |88 still remaining in engagement with the escapement-pinion 48 at the end of said step of the escapement-,wheel 44, it results that the carriage jumps until the shoulder |94 of the trailing rackportion |84 meets the stop-face |85 of said racksegment |80, as `in Figure 25. The carriage thus skips a number of letter-spaces to bring it immediately to the tens-o-cents denomination for the tax-column of the bill |30, the number of spaces skipped (three in the present instance) being commensurate with said step of the escapement-wheel 44 plus the distance from the end I8| of the stop-linger |82 to the shoulder |94 of the trailing rack-portion. A side ange 20| of the stop-nger |82 plays between the side of the rack-bar |86 and a screw-head 202 to steady said nger |82 sidewise at its free end, said ,iinger |82 being pivoted at the other end of said flange 20|. A spring 203 seated at 204 in said rack-bar |86 presses against a tongue 205 of said stop-finger |82 to yieldably keep the latter in its normal Figure 20 position. A tab 206 formed on said stop-finger |82 extends its stopend area preferably downwardly and is therefore normally within the rack-segment-retaining slot IBI, Figure 23. A lug 201 on the rack-segmen |80 for the spring |96 is beveled at 208 to deect the stop-finger |82, to permit the latter to freely override said lug during the described space-skipping advance of the carriage to the Figure 25 position.

The carriage having skipped, as explained, to the tens-o-cents denomination of the tax-column, the tax is now typed and is concomitantly entered into registers Nos. I, 2 and 3; said registers at this time, Figure 18, traversing respectively the master wheels 91, |33, |34.

Following the typing of the last or units-oicents digit of the tax, the carriage is retiuned to the usual line-start-defining margin-stop (not shown), and the platen is line-spaced for writing the statement of another call in a new line. For carriage-returning and line-spacing by power, there may be used mechanism oi' the kind described in my Patent 1,580,326, issued April 13, 1926. In such mechanism, a trip-link 2|0, connected to an arm 2II of a rock-shaft 2I2, is normally latched as at 2|3, Figures 1 and 2, to the typewriter-framework. A carriage-returnkey lever 2|4 is manually operable to raise the forward end of said link 2li), to release it for resulting rearward movement by a spring 2|5. This rocks said shaft 2 I2 and another rock-shait 2I6, Figures 1 and 5, to shift a carriage-return pinion 2I1 rearwardly on a pinion-shaft 2I8, to clutch it to the latter, by means of a clutch 2|9, said rock-shaft 2 I 6 having a pinion-shifting arm 228, and being connected by a linkage 22| to the iirst rock-shaft 2|2. Said pinion 2I1 meshes with the usual rack 222 on the carriage 36, Figure 15. For initiating a carriage-return automatically at the end of a line, said trip-link 2|0 may be released by the carriage working through the usual connections including, Figure l5, a triplever 223, connected by a link 224 to a carriage- Operated bail 2249, ulcrumed on a transverse shaft 225, along which the usual Underwood margin-stops are adjustable, the carriage working said bail 224e through a lever on the lineend-dening margin-stop (not shown), as in Patent 1,238,919, to Hoyt, issued September 4,

A drive-shaft 226 from an electric motor 221, at the back of the typewriter, Figure 5, drives the carriage-return pinion-shaft 2I8, through a reduction-gear unit 228. For line-spacing at the carriage-return operation, the devices shown in my aforesaid Patent 1,580,326 may be used, said devices including, as represented in Figure 15, a Vertical rock-shaft 229, fulcrumed in the carriage, and having an arm 230 `engaged by said rack 222, said rock-shaft 229 being connected to the line-space mechanism, and said rack 222 having an initial limited movement, relatively to the carriage, which is used for line-spacing. As the carriage reaches the end of its return movement, a tappet 23| thereon engages a dog 232, splined to the shaft 225, to rock the latter, for disconnecting the pinion 2 i 1 from the clutch 2|9, said shaft 225 having an arm 233, Figures 1, 5 and 15, connected by a link 234 to an arm 235 of the rock-shaft 2 I2 of the described pinion-shifting train. As said pinion 2I1 becomes thus disconnected, the trip-link 2I0 is thrust forwardly again, so as to become relatched, as at 2|3, when the carriage takes its usual drop-back movement, following termination of the carriage-return run. The pinion-shifting rock-shaft 2I6 is shown journaled in a bracket 236, Figure 5, on the framework, and the other pinion-shifting rockshaft 2|2 is journaled in brackets 231 on said framework. The electric motor 221 is normally at rest, and is started and stopped for carriagereturn operation by a switch contained in a casing 238 and controlled by a link 239 from the carriage-return pinion-shifting train.

It will be understood now that the described sequence of operations, namely, the printing of the date, telephone-exchange, amount, code and tax, and the return of the carriage and the linespacing, is repeated for each call listed in its individual line on the bill. Following the typing of the last call-listing line of the bill and the return of the carriage, the bill is advanced, by rotating the platen, to bring the foot of the bill to the printing-line. This is for printing the total of the bill inclusive of all the toll-amounts and taxes as accumulated in register No. at the foot of the amount-column of the bill, Figure 19. Concomitantly with printing said billtotal, said register No. I is cleared by means of the master wheel |33, which said No. I register traverses when typing the total in the amountcolumn, see Figure 19. Since at this time also the master wheel |34 is traversed by the No. 2 register, and it is desired to keep the grand total of all the bills in said No. 2 register, said master wheel |34 is individually unclutched from the master-Wheel shaft 66 preparatory to printing said single bill-total. The master-wheel mechanism must also be set for subtraction preparatory to printing said bill-total.

The individual disconnection of the master wheel |34 and the subtraction-setting may be done concomitantly with the tabulating operation that is effected to bring` the carriage to the amount-column, vsaid carriage having been reurned to line-start position following the typing for the last call on the bill. Since the total of Athe bill usually runs into the tens-of-dollars or higher denomination, the operation of a decimaltabulating-key lever |43 of coresponding denomination, namely, tens of dollars or higher, may serve to individually disconnect said master wheel and set the master-wheel mechanism for subtraction. Y

Operations of tabulating-key levers 43,1ower than the tens-of-dollars denominations are ineffective to effect disconnection of the master wheel |34 and subtraction-setting, in order that said lower tabulating-key levers may be used for positioning the carriage for typing the amounts and taxes of the individual calls, it being understood that the master wheels must rotater additively and the master wheel |34 must be effective at such typing of the individual amounts and taxes. In the present machine, three such higher denomination key-levers |43 are shown, namely, for the tens, hundreds and thousands of dollars denominations.

Referring now to Figures 1, 2, 5 and 13, the operation of any one of said higher-denomination-tabulating-key levers |43 rocks a shaft 24|', the latter having an arm 242 provided with a universal spur 243 that reaches across said three higher tabulating-key levers |43, but not across the lower tabulating-key levers, as in Figures 2 and 5. Said shaft 24|, journaled in brackets 244 of the machine-framework, is thus rocked counterclockwise to the Figure 13 position, and rocks a companion shaft 245, journaled in the brackets 231, clockwise to the Figure 13 position to turn the state-setting lever |02 from its adding, Figure 2, position, to subtracting position, said shaft 245 having an arm 246 connected by a pull-link 246a to the subtraction-key side of said state-setting lever |02, and also having. an

arm 241 connected by a thrust-link 246 to an arm 248a of said first rock-shaft 24|. Upon releasing the tabulating-key lever |43, after its operation to tabulate the carriage, the detentarm ||5 in the master-wheel mechanism, Figure 2, keeps the state-setting lever |02 in subtractive position, and it will be remembered that in said position said lever I|02 will have cooperated to shift the gear-sector 69 and changegear 12 into subtractive relation to the master pinionv 1|. The subtraction-setting rock-shaft 245 also remains in operated position, Figure 13, until it is rotated back, as will be explained later, to reset themechanism to` addition. A pin-andslot connection 249 at the thrust-link 248 enables said rock-shaft 245 to be set independently of the rock-shaft 24|, and the latter may be restored, as by a suitable spring, not shown, independently concomitantly with release of an operated tabulating-key lever 43.

Disconnection of the master wheel |34 from the master-wheel shaft 66 concomitantly with operation of one of said higher-tabulating-key levers |43 is eiected by means of said rockshaft 24|. To this end, an arm 250 of the latter is connected by a thrust-link 25| to a lever 252 loosely fulcrumed on the shaft |49 and serving asia one-way connection to a bail 253, that is also loosely fulcrumed on said shaft |49. A link 254 connects said bail 253, which has a linkarm 255, to an arm 256 of a bell-crank 251 loosely fulcrumed on the rod 64 in the master-wheel mechanism. Thus, when said rock-shaft 24| is rocked counterclockwise to the Figure 13 position by operation of one of said higherdenomination-tabulating-key levers |43, the bell-crank 251 displaces a clutch-shifter 258 to shift the clutch |15 for the master Wheel |34 from the closed position, Figures 5 and 18, to the open position, Figure 19. Said shifter 258, in the form of a slide slotted as at 259, Figures 9 and 19, to slidably fit guide-studs 260 provided in the master-wheel-mechanism framework, has a tongue 26| fitting a groove 262 in said clutch 15 for connection to the latter. When the bellcrank 251 is rocked from the idle position, Figures 1 and 17, to the position Figures 13 and 19, an arm 263 thereon engages a cam-end 264 of the clutch-shifter 258 to displace the latter, and the clutch |15, leftwardly to the Figure 19 position, to thereby disconnect the master wheel |34 from the master-wheel shaft 66. A notch 2635, Figure 18, in the bell-crank arm 263, seats the suitably pointed cam-end 264 of said shifter 258 to yieldably detent the latter and its described actuating train, from the bell-crank 253 to the bell-crank 251 in operated positions, Figures 3 and 19, a spring 265 coacting to thrust the shifter 258 into said notch 263e. A spur 266 of the shifter 258 engages the master wheel |34 to dog the latter and its clutch |15 when said master wheel is disconnected as described, thereby providing against clashing of the clutchteeth and against clashing of the master-wheel teeth and totalizer-gears.

The machine is also provided with a key-lever 268 operable for disconnecting the master wheel |34 and concomitantly effecting subtractionsetting, as, for example, when the bill-total does not run higher than the units-of-dollars denomination and no tabulating-key lever |43 higher than said latter denomination is used. To this end, said key-lever 268, fulcrumed on a rod 269 and having a total-key 210, is connected by a link 21| to an arm 212 of the subtraction- 75 setting rock-shaft 245, thereby enabling said key-lever 268 to operate said rock-shaft 2,45. For concomitantly rocking the bail 253, to effect disconnection of the master wheel |34, a branchlink 213 is pivoted to said link 21|, as at 2,14, and is forked, as at 215, over the shaft |49 for guidance, said link having a pin 216 engaging a side arm 211 of said bail 253.

The master wheel |34 having been silenced and subtraction-setting having been effected, either by operation of one of the higher-tabulating-key levers |43 or the total-key lever 268, the bill-total is now typed at the foot of the amountcolumn, as at Figure 19, and the No. register from which said total is copied is concomitantly cleared. Another bill is then entered into the machine, and, preparatory to typing the first call-entry thereon, the carriage will have been returned to line-starting position.

It will be remembered that as the carriage reaches said position, the carriage-tappet 23| will have engaged the dog 232 to rock the shafts 225 and 2|2 for disengaging the carriage-return pinion 2|1, and restoring and relatching the carriage-return trip-link 2|0. Said tappet 23| and dog 232 are arranged to give an excess of rotation to said shafts 225 and 2|2, as is manifested by the overthrow of the trip-link 2|0 and the passing of its latching shoulder 219 beyond a latching plate 28D, as at 28|, Figure 15. This excess of rotation is used to reset the machine to addition and to effect reconnection of the master Wheel |34. For this purpose, the linkage 22|, connected to the rock-shaft 2|2, has a cam-shoulder 282 to engage a pin-arm 283, Figure 15, of the rock-shaft 245, to rotate the latter counterclockwise during said excess rotation, and thereby reset the machine to addition, it being remembered that said rock-shaft 245 is Iconnected by the link `245EL to the state-setting lever |02. Said rock-shaft 2|2 also has an arm 284, that, during said excess rotation, engages a shoulder 285 of the link 254 to displace the latter rearwardly, and thereby turn the bell-crank v251 counterclockwise 4to withdraw its arm 263 from the clutch-shifter 258, in consequence of which the latter and the clutch |15 are restored by the shifter-spring 255, and the master wheel |34 thus becomes clutched again toy the master- Wheel shaft G5.

Said tappet 23| `and dog 2.3.2 are further arranged so that as the carriage takes the usual drop-back movement after striking the marginstop, the tappet 23| recedes from said dog 232 to permit recovery of said shafts 225, Y2 2 from said excess movement and consequent recession of the cam-shoulder 282 and arm 284, in order to permit later subtraction-setting `operation of said rock-shaft 245, and forward thrust of the link 254 for disconnecting the master wheel |34. It will be seen that rotation, equivalent to said excess, of the rock-shafts 225, 2|2 occurs also if the carriage is returned manually, that is, even if the carriage is not returned by the carriagereturn mechanism, and that .therefore said manual return of the carriage will also be effective to effect resetting to addition and reconnection of the master-Wheel |34.

When the typing of a multiplicity or book of bills is completed, the grand total thereof as accumulated in register No.. 2, and the grand total of all the taxes alone of said bills as accuniulated in register No. 3 are typed. Said grand totals may be typed for example in one line at thebottom of the last bill `and under the rst column thereof, as indicated at a and b, Figures 12 and 14.

It will be remembered that, since typing without computing, that is, typing of the date and telephone-exchange numbers, is ordinarily done in said first column, the master-wheel shaft 65 is normally silenced by the carriage, when traversing lsaid first column, depressing the cam-plate |48 to disable the shaft 83 which would otherwise eifect operation of the main master-wheel clutch 15 at each operation of a numeral-type key-lever. Said normal silencing of the master-wheel shaft 66 by the carriage for said first column may be countered or avoided, in order that registers No. 2 and No. 3 may be cleared by subtraction concomitantly with typing said grand totals under said first column. For this purpose, the link |555 and arm |8| in the train from said cam-plate |48 to the bellcrank |59 Yhave a connection designed to permit restoration of said bell-crank |59 and link |56 while the cam-plate |48 is depressed at said first column. Said connection includes a coupling lever or trigger 288, pivoted at 255 to said link |60 and normally positioned on the latter against ka A,stop 285, Figure 3, so that an arm 2:30 thereof opposes an abutment in the form of a stud 29| of the arm IBI, whereby when the shaft |49 is rocked by depression of said cam-plate |43, it is normally effective to thrust said link |50 forwardly to rotate the bell-crank |59 to rock the clutch-control shaft 83 to the Figure 3 disabled position, and thereby cause the master-wheel shaft 6.6 to be silenced.

By rocking said coupling lever or trigger 288 to the Figure l position, its arm 230 clears the Stud 29| of the arm Mil, whereupon a spring 292 pulls Ysaid link |58 rearwardly and rocks the bell-crank |59 counterclockwise to release the clutch-control shaft |53 for consequent restoration of the latter by means of the spring QB, Figures 3 and '7; said spring 55 being stretched when the arm S4 of said rock-shaft 33 recedes from the clutch-operating bell-crank 85 at the rocking of said shaft 83 to its disabled, Figure 3 position.

A pin-and-slot connection 253 permits said link |60 to move independently of said arm |6|.

The described countering of the normal silencing of the master-Wheel shaft 5S by the carriage may be effected concomitantly with subtractionsetting of the state-control lever |02, which must be effected preparatory to printing said grand totals and clearing the No. 2 and 3 grandtotal registers, the latter successively traversing, see Figures 12 and 14, the master-wheel |35 when the grand totals a and l) are respectively typed in the first column. During typing of the grand total of the taxes alone and clearing it from the register No. 3 by means of said master-wheel |35, the No. I register traverses the master-Wheel |34, as in Figure 12, and it is therefore necessary to silence said master-wheel |34 preparatory to printing said grand total. This may also be done concomitantly with the aforementioned subtraction-setting and concornitantly with the described countering of the silencing of the master-wheel shaft 65, it being understood that said master-Wheel |34 may be re-silenced, by means of its individual clutch |15, independently of said master-wheel shaft 6G.

The countering of the silencing of the master- Wheel shaft ,56, the subtraction-setting and the individual re-silencing of the master-Wheel |34 may be done concomitantly with the operation of any one of the aforementioned higher denomination tabulating key-levers |43 to tabulate'the carriage for the grand totals. As a1- ready described, there occurs concomitantly i, with operation of any one of the higher denomination tabulating key-levers |43, an operation of the subtraction-setting rock-shaft 245, and an operation of the bail 253 for unclutching the master-wheel |34 from the master-wheel shaft 66. For making the countering of the normal silencingY of the master-wheel shaft 'rconcomitant with these functions, the subtraction-setting rock-shaft 245 has an arm 294 connected by a link 295 to the coupling lever 288, sothat as said rock-shaft 245 is operated by means of one of said higher denomination tabulating keylevers it turns said coupling lever 238 to the ineffective position, exemplied in Figures 1l and 13, for resulting restoration of the clutch-controlling rock-shaft 83 from the disabled Figure 3 position.

Since operation of the total-key lever 298 also rocks Vsaid subtraction-setting shaft .245, and works the bail 253 for silencing the masterwheel |34, and since said subtraction-setting rock-shaft 245 is connectedk to the coupling lever 288, as just described, it will be seen .that said total-key lever 233 may be operated preparatory to grand-total typing, as, for example, when said printing is done Without use of one of said higher denomination tabulating key-levers |43.

Referring to work-Sheet forms other than. the described telephone-bill, it may be desired to effect disconnection of the master-wheel |33 f under control of the carriage for a certain zone of said other work-sheet. It may also be desired to effect such carriage-controlled disconnection of said master-wheel |34 independently of subtraction-setting or tabulating operations. `'Io these ends, an eXtra cam-plate 293, Figures 2 and 13, isk provided, and has a stem connected, as at 291, to the bail 253. For a given zone of such other work-sheet, the carriage may have a tappet, similar to the tappet |4|, for depressing said cam-plate 293, and thereby working said bail 253 to disconnect the master-wheel |34. Said eXtra cam-plate 295 has a restoring spring 281.

The operation of the machine for typing the telephone-bills will be understood from the foregoing detailed description, and may be summarized as follows.

A telephone-bill having been inserted in the machine and positioned for starting the writing of the first call-entry line, the carriage-tappet |4| will be at the dotted-line position, Figure 16, to depress the cam-plate |48, thereby rendering the master-wheel shaft 66 inoperable by any numeral type key train. Ihe date and telephoneexchange number for said iirst call are now typed in the rst column of the bill, as in Figure 3. As the carriage is moved to the amount-column, usually by operating one of the lower denomination tabulating key-levers |43, the tappet |4| leaves the cam-plate |48, thereby -causing the master-wheel shaft 63 to become operable again at operation of any numeral-type key train. While typing the toll in the amount-column, registers Nos. and 2 respectively traverse the master-wheels |33, |34, Figure 17, thereby entering the toll in these registers. Following the typing of the last toll-digit, the feed rack devices operate as in Figures 21, 23, to automatically jump the carriage three spaces to the position for typing the code-letter. Upon typing said code-letter, the feed rack devices operate as in Figures 22, 25,y to jump the carriage three spaces to bring it to the tens-Of-cents denomination of the tax-column. The tax is then typed and 'concomitantly entered in registers Nos. 2 and 3, these registers at this time traversing respectively the master-wheels 97, |33 and |34, as in Figure 18. Following the typing of the tax, the carriage is returned and the platen isA line-spaced for starting the entry of another call on a new line of the bill, the described operations being repeated for said new line. Thus each call is entered line by line on the bill. When the last call-entry line has been typed, the carriage is again returned to line-start position, and the platen is advancedand the carriage is tabulated preparatory to printing the bill-total at the foot of the amount-column. The operation of one of the higher denomination tabulating keys v|43 to so tabulate said carriage, or the operation of the total-key lever 268, in case said carriage is otherwise positioned for the bill-totaL sets the state-control lever |32 to subtraction .and causes disconnection of the master-wheel |34, in Figure 19. The bill-total is now typed and at subsequent return of the carriage to line-start position the carriage tappet 23| and dog 232 cooperate to reconnect the master-Wheel |34 and reset the machine to addition as in Figure 15. Succeeding bills are typed in the same manner. When a book of bills is completed, the grand totals a and b, in registers Nos. 2 and 3, are typed at the bottomof the last bill, as in Figures 12 and 14. The necessary subtraction-setting, disconnection of the master-wheel |34 and countering of the normal silencing by the carriage of the mastervvhee-l shaft 96 are effected preparatory to said grand-total printing, by operation of one of the higher denomination tabulating key-levers |93 or of the total-key lever 268, said registers Nos. 2 and v3 being cleared concomitantly with typing said grand totals and for this purpose traversing the master wheel |35.

A plate 293, Figures 2 and 19, attached tothe master-wheel-mechanism framework, has spurs such as 299 to retain the master-wheel |34y sidewise. Said plate 298 also presents teeth 339 alongside themaster-Wheels |34, |35, to dogv any totalizer-gear about to engage either of said master-wheels |34, |35. Similar teeth shown) may be provided for the master-wheels 91, |33. Tongues 33| project from the master- Wheel-mechanism casing 332, Figure 8, to oppose operation, by the dog |33, of the lever lill, Figure 1, that is adjacent each punctuation-denornination 303 of a totalizer; such lever |9| having an extension 3H to oppose the dog |93 as in Figure 6, to prevent operation of a` numeral-type key-lever, when the carriage is at a punctuationspace.

The clutch-shifter 258 may have an index 383 visible through an opening 335, Figure 5, to indicate whether the master-wheel |34 is connected or disconnected.

For rotatably adjusting a part, such as the clutch-head or the master-wheel |35, on the master-wheel shaft 66, a hub 333, Figure' 4, of such part has two set-screws 331, on opposite sides of a center line through the master-wheel shaft 65, to engage seats 398 in the latter. By alternately loosening and tightening said screws, said part may be rotatably adjusted in either direction on the shaft 66.

For their placement close together, registers Nos. and 2 are included in one casing 399, as,

(not u 

